[[testcontext-support-classes]]
= TestContext Framework Support Classes

This section describes the various classes that support the Spring TestContext Framework.

[[testcontext-junit4-runner]]
== Spring JUnit 4 Runner

The Spring TestContext Framework offers full integration with JUnit 4 through a custom
runner (supported on JUnit 4.12 or higher). By annotating test classes with
`@RunWith(SpringJUnit4ClassRunner.class)` or the shorter `@RunWith(SpringRunner.class)`
variant, developers can implement standard JUnit 4-based unit and integration tests and
simultaneously reap the benefits of the TestContext framework, such as support for
loading application contexts, dependency injection of test instances, transactional test
method execution, and so on. If you want to use the Spring TestContext Framework with an
alternative runner (such as JUnit 4's `Parameterized` runner) or third-party runners
(such as the `MockitoJUnitRunner`), you can, optionally, use
xref:testing/testcontext-framework/support-classes.adoc#testcontext-junit4-rules[Spring's support for JUnit rules] instead.

The following code listing shows the minimal requirements for configuring a test class to
run with the custom Spring `Runner`:

[tabs]
======
Java::
+
[source,java,indent=0,subs="verbatim,quotes",role="primary"]
----
	@RunWith(SpringRunner.class)
	@TestExecutionListeners({})
	public class SimpleTest {

		@Test
		public void testMethod() {
			// test logic...
		}
	}
----

Kotlin::
+
[source,kotlin,indent=0,subs="verbatim,quotes",role="secondary"]
----
	@RunWith(SpringRunner::class)
	@TestExecutionListeners
	class SimpleTest {

		@Test
		fun testMethod() {
			// test logic...
		}
	}
----
======

In the preceding example, `@TestExecutionListeners` is configured with an empty list, to
disable the default listeners, which otherwise would require an `ApplicationContext` to
be configured through `@ContextConfiguration`.

[[testcontext-junit4-rules]]
== Spring JUnit 4 Rules

The `org.springframework.test.context.junit4.rules` package provides the following JUnit
4 rules (supported on JUnit 4.12 or higher):

* `SpringClassRule`
* `SpringMethodRule`

`SpringClassRule` is a JUnit `TestRule` that supports class-level features of the Spring
TestContext Framework, whereas `SpringMethodRule` is a JUnit `MethodRule` that supports
instance-level and method-level features of the Spring TestContext Framework.

In contrast to the `SpringRunner`, Spring's rule-based JUnit support has the advantage of
being independent of any `org.junit.runner.Runner` implementation and can, therefore, be
combined with existing alternative runners (such as JUnit 4's `Parameterized`) or
third-party runners (such as the `MockitoJUnitRunner`).

To support the full functionality of the TestContext framework, you must combine a
`SpringClassRule` with a `SpringMethodRule`. The following example shows the proper way
to declare these rules in an integration test:

[tabs]
======
Java::
+
[source,java,indent=0,subs="verbatim,quotes",role="primary"]
----
	// Optionally specify a non-Spring Runner via @RunWith(...)
	@ContextConfiguration
	public class IntegrationTest {

		@ClassRule
		public static final SpringClassRule springClassRule = new SpringClassRule();

		@Rule
		public final SpringMethodRule springMethodRule = new SpringMethodRule();

		@Test
		public void testMethod() {
			// test logic...
		}
	}
----

Kotlin::
+
[source,kotlin,indent=0,subs="verbatim,quotes",role="secondary"]
----
	// Optionally specify a non-Spring Runner via @RunWith(...)
	@ContextConfiguration
	class IntegrationTest {

		@Rule
		val springMethodRule = SpringMethodRule()

		@Test
		fun testMethod() {
			// test logic...
		}

		companion object {
			@ClassRule
			val springClassRule = SpringClassRule()
		}
	}
----
======

[[testcontext-support-classes-junit4]]
== JUnit 4 Support Classes

The `org.springframework.test.context.junit4` package provides the following support
classes for JUnit 4-based test cases (supported on JUnit 4.12 or higher):

* `AbstractJUnit4SpringContextTests`
* `AbstractTransactionalJUnit4SpringContextTests`

`AbstractJUnit4SpringContextTests` is an abstract base test class that integrates the
Spring TestContext Framework with explicit `ApplicationContext` testing support in a
JUnit 4 environment. When you extend `AbstractJUnit4SpringContextTests`, you can access a
`protected` `applicationContext` instance variable that you can use to perform explicit
bean lookups or to test the state of the context as a whole.

`AbstractTransactionalJUnit4SpringContextTests` is an abstract transactional extension of
`AbstractJUnit4SpringContextTests` that adds some convenience functionality for JDBC
access. This class expects a `javax.sql.DataSource` bean and a
`PlatformTransactionManager` bean to be defined in the `ApplicationContext`. When you
extend `AbstractTransactionalJUnit4SpringContextTests`, you can access a `protected`
`jdbcTemplate` instance variable that you can use to run SQL statements to query the
database. You can use such queries to confirm database state both before and after
running database-related application code, and Spring ensures that such queries run in
the scope of the same transaction as the application code. When used in conjunction with
an ORM tool, be sure to avoid xref:testing/testcontext-framework/tx.adoc#testcontext-tx-false-positives[false positives].
As mentioned in xref:testing/support-jdbc.adoc[JDBC Testing Support],
`AbstractTransactionalJUnit4SpringContextTests` also provides convenience methods that
delegate to methods in `JdbcTestUtils` by using the aforementioned `jdbcTemplate`.
Furthermore, `AbstractTransactionalJUnit4SpringContextTests` provides an
`executeSqlScript(..)` method for running SQL scripts against the configured `DataSource`.

TIP: These classes are a convenience for extension. If you do not want your test classes
to be tied to a Spring-specific class hierarchy, you can configure your own custom test
classes by using `@RunWith(SpringRunner.class)` or xref:testing/testcontext-framework/support-classes.adoc#testcontext-junit4-rules[Spring's JUnit rules]
.

[[testcontext-junit-jupiter-extension]]
== SpringExtension for JUnit Jupiter

The Spring TestContext Framework offers full integration with the JUnit Jupiter testing
framework, introduced in JUnit 5. By annotating test classes with
`@ExtendWith(SpringExtension.class)`, you can implement standard JUnit Jupiter-based unit
and integration tests and simultaneously reap the benefits of the TestContext framework,
such as support for loading application contexts, dependency injection of test instances,
transactional test method execution, and so on.

Furthermore, thanks to the rich extension API in JUnit Jupiter, Spring provides the
following features above and beyond the feature set that Spring supports for JUnit 4 and
TestNG:

* Dependency injection for test constructors, test methods, and test lifecycle callback
  methods. See xref:testing/testcontext-framework/support-classes.adoc#testcontext-junit-jupiter-di[Dependency Injection with the `SpringExtension`] for further details.
* Powerful support for link:https://junit.org/junit5/docs/current/user-guide/#extensions-conditions[conditional
  test execution] based on SpEL expressions, environment variables, system properties,
  and so on. See the documentation for `@EnabledIf` and `@DisabledIf` in
  xref:testing/annotations/integration-junit-jupiter.adoc[Spring JUnit Jupiter Testing Annotations] for further details and examples.
* Custom composed annotations that combine annotations from Spring and JUnit Jupiter. See
  the `@TransactionalDevTestConfig` and `@TransactionalIntegrationTest` examples in
  xref:testing/annotations/integration-meta.adoc[Meta-Annotation Support for Testing] for further details.

The following code listing shows how to configure a test class to use the
`SpringExtension` in conjunction with `@ContextConfiguration`:

[tabs]
======
Java::
+
[source,java,indent=0,subs="verbatim,quotes",role="primary"]
----
	// Instructs JUnit Jupiter to extend the test with Spring support.
	@ExtendWith(SpringExtension.class)
	// Instructs Spring to load an ApplicationContext from TestConfig.class
	@ContextConfiguration(classes = TestConfig.class)
	class SimpleTests {

		@Test
		void testMethod() {
			// test logic...
		}
	}
----

Kotlin::
+
[source,kotlin,indent=0,subs="verbatim,quotes",role="secondary"]
----
	// Instructs JUnit Jupiter to extend the test with Spring support.
	@ExtendWith(SpringExtension::class)
	// Instructs Spring to load an ApplicationContext from TestConfig::class
	@ContextConfiguration(classes = [TestConfig::class])
	class SimpleTests {

		@Test
		fun testMethod() {
			// test logic...
		}
	}
----
======

Since you can also use annotations in JUnit 5 as meta-annotations, Spring provides the
`@SpringJUnitConfig` and `@SpringJUnitWebConfig` composed annotations to simplify the
configuration of the test `ApplicationContext` and JUnit Jupiter.

The following example uses `@SpringJUnitConfig` to reduce the amount of configuration
used in the previous example:

[tabs]
======
Java::
+
[source,java,indent=0,subs="verbatim,quotes",role="primary"]
----
	// Instructs Spring to register the SpringExtension with JUnit
	// Jupiter and load an ApplicationContext from TestConfig.class
	@SpringJUnitConfig(TestConfig.class)
	class SimpleTests {

		@Test
		void testMethod() {
			// test logic...
		}
	}
----

Kotlin::
+
[source,kotlin,indent=0,subs="verbatim,quotes",role="secondary"]
----
	// Instructs Spring to register the SpringExtension with JUnit
	// Jupiter and load an ApplicationContext from TestConfig.class
	@SpringJUnitConfig(TestConfig::class)
	class SimpleTests {

		@Test
		fun testMethod() {
			// test logic...
		}
	}
----
======

Similarly, the following example uses `@SpringJUnitWebConfig` to create a
`WebApplicationContext` for use with JUnit Jupiter:

[tabs]
======
Java::
+
[source,java,indent=0,subs="verbatim,quotes",role="primary"]
----
	// Instructs Spring to register the SpringExtension with JUnit
	// Jupiter and load a WebApplicationContext from TestWebConfig.class
	@SpringJUnitWebConfig(TestWebConfig.class)
	class SimpleWebTests {

		@Test
		void testMethod() {
			// test logic...
		}
	}
----

Kotlin::
+
[source,kotlin,indent=0,subs="verbatim,quotes",role="secondary"]
----
	// Instructs Spring to register the SpringExtension with JUnit
	// Jupiter and load a WebApplicationContext from TestWebConfig::class
	@SpringJUnitWebConfig(TestWebConfig::class)
	class SimpleWebTests {

		@Test
		fun testMethod() {
			// test logic...
		}
	}
----
======

See the documentation for `@SpringJUnitConfig` and `@SpringJUnitWebConfig` in
xref:testing/annotations/integration-junit-jupiter.adoc[Spring JUnit Jupiter Testing Annotations] for further details.

[[testcontext-junit-jupiter-di]]
=== Dependency Injection with the `SpringExtension`

The `SpringExtension` implements the
link:https://junit.org/junit5/docs/current/user-guide/#extensions-parameter-resolution[`ParameterResolver`]
extension API from JUnit Jupiter, which lets Spring provide dependency injection for test
constructors, test methods, and test lifecycle callback methods.

Specifically, the `SpringExtension` can inject dependencies from the test's
`ApplicationContext` into test constructors and methods that are annotated with
Spring's `@BeforeTransaction` and `@AfterTransaction` or JUnit's `@BeforeAll`,
`@AfterAll`, `@BeforeEach`, `@AfterEach`, `@Test`, `@RepeatedTest`, `@ParameterizedTest`,
and others.


[[testcontext-junit-jupiter-di-constructor]]
==== Constructor Injection

If a specific parameter in a constructor for a JUnit Jupiter test class is of type
`ApplicationContext` (or a sub-type thereof) or is annotated or meta-annotated with
`@Autowired`, `@Qualifier`, or `@Value`, Spring injects the value for that specific
parameter with the corresponding bean or value from the test's `ApplicationContext`.

Spring can also be configured to autowire all arguments for a test class constructor if
the constructor is considered to be _autowirable_. A constructor is considered to be
autowirable if one of the following conditions is met (in order of precedence).

* The constructor is annotated with `@Autowired`.
* `@TestConstructor` is present or meta-present on the test class with the `autowireMode`
  attribute set to `ALL`.
* The default _test constructor autowire mode_ has been changed to `ALL`.

See xref:testing/annotations/integration-junit-jupiter.adoc#integration-testing-annotations-testconstructor[`@TestConstructor`] for details on the use of
`@TestConstructor` and how to change the global _test constructor autowire mode_.

WARNING: If the constructor for a test class is considered to be _autowirable_, Spring
assumes the responsibility for resolving arguments for all parameters in the constructor.
Consequently, no other `ParameterResolver` registered with JUnit Jupiter can resolve
parameters for such a constructor.

[WARNING]
====
Constructor injection for test classes must not be used in conjunction with JUnit
Jupiter's `@TestInstance(PER_CLASS)` support if `@DirtiesContext` is used to close the
test's `ApplicationContext` before or after test methods.

The reason is that `@TestInstance(PER_CLASS)` instructs JUnit Jupiter to cache the test
instance between test method invocations. Consequently, the test instance will retain
references to beans that were originally injected from an `ApplicationContext` that has
been subsequently closed. Since the constructor for the test class will only be invoked
once in such scenarios, dependency injection will not occur again, and subsequent tests
will interact with beans from the closed `ApplicationContext` which may result in errors.

To use `@DirtiesContext` with "before test method" or "after test method" modes in
conjunction with `@TestInstance(PER_CLASS)`, one must configure dependencies from Spring
to be supplied via field or setter injection so that they can be re-injected between test
method invocations.
====

In the following example, Spring injects the `OrderService` bean from the
`ApplicationContext` loaded from `TestConfig.class` into the
`OrderServiceIntegrationTests` constructor.

[tabs]
======
Java::
+
[source,java,indent=0,subs="verbatim,quotes",role="primary"]
----
	@SpringJUnitConfig(TestConfig.class)
	class OrderServiceIntegrationTests {

		private final OrderService orderService;

		@Autowired
		OrderServiceIntegrationTests(OrderService orderService) {
			this.orderService = orderService;
		}

		// tests that use the injected OrderService
	}
----

Kotlin::
+
[source,kotlin,indent=0,subs="verbatim,quotes",role="secondary"]
----
	@SpringJUnitConfig(TestConfig::class)
	class OrderServiceIntegrationTests @Autowired constructor(private val orderService: OrderService){
		// tests that use the injected OrderService
	}

----
======

Note that this feature lets test dependencies be `final` and therefore immutable.

If the `spring.test.constructor.autowire.mode` property is to `all` (see
xref:testing/annotations/integration-junit-jupiter.adoc#integration-testing-annotations-testconstructor[`@TestConstructor`]), we can omit the declaration of
`@Autowired` on the constructor in the previous example, resulting in the following.

[tabs]
======
Java::
+
[source,java,indent=0,subs="verbatim,quotes",role="primary"]
----
	@SpringJUnitConfig(TestConfig.class)
	class OrderServiceIntegrationTests {

		private final OrderService orderService;

		OrderServiceIntegrationTests(OrderService orderService) {
			this.orderService = orderService;
		}

		// tests that use the injected OrderService
	}
----

Kotlin::
+
[source,kotlin,indent=0,subs="verbatim,quotes",role="secondary"]
----
	@SpringJUnitConfig(TestConfig::class)
	class OrderServiceIntegrationTests(val orderService:OrderService) {
		// tests that use the injected OrderService
	}
----
======

[[testcontext-junit-jupiter-di-method]]
==== Method Injection

If a parameter in a JUnit Jupiter test method or test lifecycle callback method is of
type `ApplicationContext` (or a sub-type thereof) or is annotated or meta-annotated with
`@Autowired`, `@Qualifier`, or `@Value`, Spring injects the value for that specific
parameter with the corresponding bean from the test's `ApplicationContext`.

In the following example, Spring injects the `OrderService` from the `ApplicationContext`
loaded from `TestConfig.class` into the `deleteOrder()` test method:

[tabs]
======
Java::
+
[source,java,indent=0,subs="verbatim,quotes",role="primary"]
----
	@SpringJUnitConfig(TestConfig.class)
	class OrderServiceIntegrationTests {

		@Test
		void deleteOrder(@Autowired OrderService orderService) {
			// use orderService from the test's ApplicationContext
		}
	}
----

Kotlin::
+
[source,kotlin,indent=0,subs="verbatim,quotes",role="secondary"]
----
	@SpringJUnitConfig(TestConfig::class)
	class OrderServiceIntegrationTests {

		@Test
		fun deleteOrder(@Autowired orderService: OrderService) {
			// use orderService from the test's ApplicationContext
		}
	}
----
======

Due to the robustness of the `ParameterResolver` support in JUnit Jupiter, you can also
have multiple dependencies injected into a single method, not only from Spring but also
from JUnit Jupiter itself or other third-party extensions.

The following example shows how to have both Spring and JUnit Jupiter inject dependencies
into the `placeOrderRepeatedly()` test method simultaneously.

[tabs]
======
Java::
+
[source,java,indent=0,subs="verbatim,quotes",role="primary"]
----
	@SpringJUnitConfig(TestConfig.class)
	class OrderServiceIntegrationTests {

		@RepeatedTest(10)
		void placeOrderRepeatedly(RepetitionInfo repetitionInfo,
				@Autowired OrderService orderService) {

			// use orderService from the test's ApplicationContext
			// and repetitionInfo from JUnit Jupiter
		}
	}
----

Kotlin::
+
[source,kotlin,indent=0,subs="verbatim,quotes",role="secondary"]
----
	@SpringJUnitConfig(TestConfig::class)
	class OrderServiceIntegrationTests {

		@RepeatedTest(10)
		fun placeOrderRepeatedly(repetitionInfo:RepetitionInfo, @Autowired orderService:OrderService) {

			// use orderService from the test's ApplicationContext
			// and repetitionInfo from JUnit Jupiter
		}
	}
----
======

Note that the use of `@RepeatedTest` from JUnit Jupiter lets the test method gain access
to the `RepetitionInfo`.

[[testcontext-junit-jupiter-nested-test-configuration]]
=== `@Nested` test class configuration

The _Spring TestContext Framework_ has supported the use of test-related annotations on
`@Nested` test classes in JUnit Jupiter since Spring Framework 5.0; however, until Spring
Framework 5.3 class-level test configuration annotations were not _inherited_ from
enclosing classes like they are from superclasses.

Spring Framework 5.3 introduced first-class support for inheriting test class
configuration from enclosing classes, and such configuration will be inherited by
default. To change from the default `INHERIT` mode to `OVERRIDE` mode, you may annotate
an individual `@Nested` test class with
`@NestedTestConfiguration(EnclosingConfiguration.OVERRIDE)`. An explicit
`@NestedTestConfiguration` declaration will apply to the annotated test class as well as
any of its subclasses and nested classes. Thus, you may annotate a top-level test class
with `@NestedTestConfiguration`, and that will apply to all of its nested test classes
recursively.

In order to allow development teams to change the default to `OVERRIDE` – for example,
for compatibility with Spring Framework 5.0 through 5.2 – the default mode can be changed
globally via a JVM system property or a `spring.properties` file in the root of the
classpath. See the xref:testing/annotations/integration-junit-jupiter.adoc#integration-testing-annotations-nestedtestconfiguration["Changing the default enclosing configuration inheritance mode"]
 note for details.

Although the following "Hello World" example is very simplistic, it shows how to declare
common configuration on a top-level class that is inherited by its `@Nested` test
classes. In this particular example, only the `TestConfig` configuration class is
inherited. Each nested test class provides its own set of active profiles, resulting in a
distinct `ApplicationContext` for each nested test class (see
xref:testing/testcontext-framework/ctx-management/caching.adoc[Context Caching] for details). Consult the list of
xref:testing/annotations/integration-junit-jupiter.adoc#integration-testing-annotations-nestedtestconfiguration[supported annotations] to see
which annotations can be inherited in `@Nested` test classes.

[tabs]
======
Java::
+
[source,java,indent=0,subs="verbatim,quotes",role="primary"]
----
	@SpringJUnitConfig(TestConfig.class)
	class GreetingServiceTests {

		@Nested
		@ActiveProfiles("lang_en")
		class EnglishGreetings {

			@Test
			void hello(@Autowired GreetingService service) {
				assertThat(service.greetWorld()).isEqualTo("Hello World");
			}
		}

		@Nested
		@ActiveProfiles("lang_de")
		class GermanGreetings {

			@Test
			void hello(@Autowired GreetingService service) {
				assertThat(service.greetWorld()).isEqualTo("Hallo Welt");
			}
		}
	}
----

Kotlin::
+
[source,kotlin,indent=0,subs="verbatim,quotes",role="secondary"]
----
	@SpringJUnitConfig(TestConfig::class)
	class GreetingServiceTests {

		@Nested
		@ActiveProfiles("lang_en")
		inner class EnglishGreetings {

			@Test
			fun hello(@Autowired service:GreetingService) {
				assertThat(service.greetWorld()).isEqualTo("Hello World")
			}
		}

		@Nested
		@ActiveProfiles("lang_de")
		inner class GermanGreetings {

			@Test
			fun hello(@Autowired service:GreetingService) {
				assertThat(service.greetWorld()).isEqualTo("Hallo Welt")
			}
		}
	}
----
======

[[testcontext-support-classes-testng]]
== TestNG Support Classes

The `org.springframework.test.context.testng` package provides the following support
classes for TestNG based test cases:

* `AbstractTestNGSpringContextTests`
* `AbstractTransactionalTestNGSpringContextTests`

`AbstractTestNGSpringContextTests` is an abstract base test class that integrates the
Spring TestContext Framework with explicit `ApplicationContext` testing support in a
TestNG environment. When you extend `AbstractTestNGSpringContextTests`, you can access a
`protected` `applicationContext` instance variable that you can use to perform explicit
bean lookups or to test the state of the context as a whole.

`AbstractTransactionalTestNGSpringContextTests` is an abstract transactional extension of
`AbstractTestNGSpringContextTests` that adds some convenience functionality for JDBC
access. This class expects a `javax.sql.DataSource` bean and a
`PlatformTransactionManager` bean to be defined in the `ApplicationContext`. When you
extend `AbstractTransactionalTestNGSpringContextTests`, you can access a `protected`
`jdbcTemplate` instance variable that you can use to run SQL statements to query the
database. You can use such queries to confirm database state both before and after
running database-related application code, and Spring ensures that such queries run in
the scope of the same transaction as the application code. When used in conjunction with
an ORM tool, be sure to avoid xref:testing/testcontext-framework/tx.adoc#testcontext-tx-false-positives[false positives].
As mentioned in xref:testing/support-jdbc.adoc[JDBC Testing Support],
`AbstractTransactionalTestNGSpringContextTests` also provides convenience methods that
delegate to methods in `JdbcTestUtils` by using the aforementioned `jdbcTemplate`.
Furthermore, `AbstractTransactionalTestNGSpringContextTests` provides an
`executeSqlScript(..)` method for running SQL scripts against the configured `DataSource`.

TIP: These classes are a convenience for extension. If you do not want your test classes
to be tied to a Spring-specific class hierarchy, you can configure your own custom test
classes by using `@ContextConfiguration`, `@TestExecutionListeners`, and so on and by
manually instrumenting your test class with a `TestContextManager`. See the source code
of `AbstractTestNGSpringContextTests` for an example of how to instrument your test class.

